Title of article
Ostwald Ripening of precipitates and self similarity of size distributions in reaction controlled growth
Author/Authors
Gerson Feldmann، نويسنده , , Zacarias E. Fabrim، نويسنده , , Gustavo L. Hennig، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2008
Pages
7
From page
614
To page
620
Abstract
We present a mathematical model to describe
competitive growth of spherical precipitates in reactioncontrolled
systems. In this model the flux of solute atoms
through the interface depends on the interface migration
velocity and on the differences of chemical potential at the
interface. The growth-rate obtained is dependent on the
precipitate radius, much like in the diffusion-controlled
case. Numerical simulations were performed using a
modified finite-difference approach where the time-step
increase changes during evolution to avoid dissolution of
more than one precipitate each step. By using the continuity
equation we obtained an analytical function that
represents the self-similar shape of the precipitate-size
distribution dependent of the growth-parameter m. The
effect of m on the coarsening evolution was investigated.
Our results show that the precipitate size distribution
obtained from the numerical simulations agrees well with
the analytical solution. As predicted by the theory, we
obtained the growth parameter (m = 4) and the temporal
dependence of the mean-radius (t1/2) different of the
diffusion case, m = 6.75 and t1/3. We also show that the
self-similarity of the PSD is independent of the initial PSD.
Journal title
Journal of Materials Science
Serial Year
2008
Journal title
Journal of Materials Science
Record number
833901
Link To Document